JPH0564663U - Oil fan heater - Google Patents

Abstract

(57) [Summary] [Purpose] An oil fan that can effectively heat the entire room even if the air flow of the blower becomes weak and prevent thermal damage to the equipment due to abnormal heating inside the body. It is intended to provide a heater. A movable louver 11 is provided at an outlet 8 of a main body 1 so as to be vertically swingable, and the movable louver 11 is inclined downward as the amount of air blown by a blower 7 becomes weaker. Then, when the temperature inside the main body 1 detected by the abnormal heating detection thermistor 23 is higher than the set temperature, the inclination angle of the movable louver 11 is changed to an angle that is the most horizontal and the outlet 8 is opened.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an oil fan heater that uses oil such as kerosene as a fuel.

[0002]

[Prior Art]

 The structure of a conventional oil fan heater is shown in FIG. In the figure, reference numeral 1 is a main body, and inside the main body 1, a carburetor 2, an electromagnetic pump 3, a combustion section 4, a blower 8 and the like are provided.

The vaporizer 2 vaporizes petroleum fuel supplied from a fuel tank (not shown), and the petroleum fuel vaporized by the vaporizer 2 is transferred to a combustion section 4 by an electromagnetic pump 3 as fuel supply means. It is being supplied.

The combustion section 4 burns petroleum fuel supplied from the electromagnetic pump 3 to generate combustion heat. The combustion heat generated in the combustion section 4 is taken into the main body 1 by the blower 7. Along with the use air, it is blown to the outside through an outlet 8 formed in the front surface of the main body 1. The combustion section 4 is composed of a burner 5 and an ignition heater 6 that ignites the burner 5.

By the way, in the oil fan heater configured as described above, the temperature sensor such as a thermistor detects the indoor temperature, and when the indoor temperature is higher than the set temperature, for example, the operation modes of the combustion unit 4 and the blower 7 are set. The room temperature is maintained at the set temperature by switching from the strong combustion / strong air volume mode to the weak combustion / weak air volume mode.

[0006]

[Problems to be solved by the device]

 However, in the above-mentioned conventional oil fan heater, since the wind direction of the heated air is fixed in the horizontal direction by the fixed louver 9 provided in the outlet 8, the combustion mode changes from the strong combustion / strong air volume mode to the weak combustion / weak combustion mode. When switching to the air volume mode, the heated air rises as soon as it leaves the outlet 8, making it difficult to blow the heated air far along the floor surface. Therefore, conventionally, there was a problem that the heating effect is reduced when the operation mode is switched from the strong combustion / strong air volume mode to the weak combustion / weak air volume mode.

The present invention has been made in view of the above problems, and an object thereof is to effectively heat the entire room even when the amount of air blown by the blower is switched from relatively strong to weak. It aims to provide a possible oil fan heater.

[0008]

[Means for Solving the Problems]

 In order to solve the above-mentioned problems, an oil fan heater according to the present invention comprises a main body having a blowout port on the front surface, a combustion unit provided in the main body for burning petroleum fuel to generate combustion heat, and this combustion unit. An air blower that blows the combustion heat generated in the main body together with the air taken into the main body from the outlet, an indoor temperature detecting unit that detects the indoor temperature outside the main body, and a vertical direction provided at the outlet. When the indoor temperature detected by the indoor temperature detection means is higher than the set temperature, the thermal power of the combustion section and the blow rate of the blower are switched from relatively strong to weak. At the same time, the movable louver is provided with control means for inclining the movable louver downward as the amount of air blown by the blower becomes weaker, and abnormal heating detection means for detecting abnormal heating in the main body. The signal from the heating detecting means compares a setting value, a shall of having a means for controlling the inclination angle of the movable louver most close to the horizontal angle when exceeding the set value.

[0009]

[Action]

 According to the above configuration, since the movable louver inclines downward as the amount of air blown by the blower becomes weaker, it is possible to direct the heated air blown from the outlet to the floor surface. As a result, the heated air does not rise as soon as it exits the outlet, and the heated air can be blown far along the floor surface, effectively heating the entire room. it can.

Further, when the signal output from the abnormal heating detection means exceeds the set value, the inclination angle of the movable louver becomes the most horizontal angle, so that the outlet is toweled in the weak combustion / weak air volume mode. Even if the heating air is blocked by the above, the heated air does not stay in the main body, and thermal damage to the equipment provided in the main body can be prevented.

[0011]

【Example】

 1 to 8 show one embodiment of the present invention, FIG. 1 is a schematic vertical sectional view of an oil fan heater according to one embodiment of the present invention, and FIG. 2 is an enlarged sectional view near the outlet of the heater. is there. 1 and 2, 1 is a main body, 2 is a carburetor, 3 is an electromagnetic pump, 4 is a combustion part, 5 is a burner, 6 is an ignition heater, 7 is a blower, and 8 is an outlet. It is the same as that shown in FIG.

Further, 10 a is a first louver drive shaft horizontally provided at the upper part of the outlet 8, and 10 b is a second louver drive shaft horizontally provided at the lower part of the outlet 8. Movable louvers 11 are attached to the louver drive shafts 10a and 10b, respectively. The movable louver 11 adjusts the direction of the heated air blown from the outlet 8, and can be vertically swung about the louver drive shafts 10a and 10b, respectively.

The movable louver 11 is swingably driven by a louver drive mechanism 12 as shown in FIG. The louver drive mechanism 12 is composed of a motor 13 and transmission members 15a and 15b that transmit the rotation of the motor 13 to the louver drive shafts 10a and 10b. The transmission members 15a and 15b move in the vertical direction when the motor 13 rotates. It is designed to move up and down. When the transmission members 15a and 15b move up, the louver drive shafts 10a and 10b rotate, for example, clockwise, and when the transmission members 15a and 15b move down, the louver drive shafts 10a and 10b rotate counterclockwise. Growling.

Reference numeral 16 denotes an indoor temperature detecting thermistor that detects the indoor temperature outside the main body 1. The signal output from the thermistor 16 is input to the control unit 17 shown in FIG.

Based on the signal from the thermistor 16, the control unit 17 sets the operation modes of the combustion unit 4 and the blower 7 to three modes of strong combustion / strong air volume mode, medium combustion / medium air volume mode, and weak combustion / weak air volume mode. The switching control is performed and the position of the movable louver 11 is also switched and controlled according to the operation modes of the combustion unit 4 and the blower 7. For example, when the operation mode of the combustion unit 4 and the blower 7 is the strong combustion / strong air volume mode, FIG. 2, the movable louver 11 is tilted downward by θ ₁ (for example, 10 to 20 °), and the movable louver 11 is tilted downward by θ ₂ (for example, 40 to 50 °) in the medium combustion / medium air volume mode. It is designed to be tilted. When the operation mode of the combustion unit 4 and the blower 7 is the weak combustion / weak air volume mode, the movable louver 11 is inclined downward by θ ₃ (for example, 70 to 80 °).

Reference numerals 18a and 18b (see FIG. 3) are louver angle detection switches for detecting the tilt angle of the movable louver 11. These switches 18a and 18b are turned on from the ON state at the timing shown in FIG. It is designed to switch to the state. That is, the movable louver 11 changes the inclination angle of theta ₂ from the inclined angle of theta _1, louver angle degree detection switch 18a is switched from the ON state to the OFF state, and from the inclination angle of the movable louver 11 is theta ₂ theta _When the inclination angle is changed to ₃ , the louver angle detecting switch 18b is switched from the ON state to the OFF state. When the movable louver 11 changes from the inclination angle of θ _{3 to} the inclination angle of θ ₁ , the louver angle detection switches 18a and 18b are switched from the OFF state to the ON state.

As shown in FIG. 3, the louver angle detection switches 18a and 18b are provided with leaf springs 19 for contact opening and closing, which are brought into contact with the peripheral surfaces of the cam plates 20a and 20b, respectively. These cam plates 20a, 20b are attached to the rotary shaft 14 of the louver drive motor 13 described above, and louver angle detecting switches 18a, 18b are provided on the peripheral surface of each cam plate 20a, 20b. A cutout 21 is formed for switching from ON to OFF and from OFF to ON.

Reference numeral 22 is a blower duct formed in the upper portion of the combustion section 4, and the blower duct 22 is provided with a thermistor 23 for detecting abnormal heating. The thermistor 23 detects abnormal heating in the main body 1, and the signal output from the thermistor 23 is input to the control unit 17.

In FIG. 4, 24 is a combustion switch, 25 is a temperature setting switch, 26 is a carburetor temperature detecting thermistor, 27 is a carburetor heater for heating the carburetor 2, and 28 is a warning buzzer.

6 and 7 are flowcharts showing the control operation of the control unit 17, and when the combustion switch 24 is turned on in the control unit 17 as shown in FIG. 6, a heater heat generation signal is sent to the carburetor 2. The petroleum fuel sent out and supplied from the fuel tank (not shown) to the carburetor 2 is heated to a predetermined temperature by the carburetor heater 27 (steps S1 and S2). At this time, the control unit 17 detects the temperature of the carburetor 2 based on the signal from the carburetor temperature detection thermistor 26 and determines whether the carburetor 2 has reached a predetermined temperature (a temperature at which petroleum fuel can be vaporized). Is determined (steps S3 and S4). When the carburetor 2 has reached a predetermined temperature, a drive signal is sent to the electromagnetic pump 3 to drive the electromagnetic pump 3 and a heat generation signal is sent to the ignition heater 6 of the combustion section 4 (step S5). , S6). As a result, the petroleum fuel vaporized in the vaporizer 2 is supplied to the combustion section 4 by the electromagnetic pump 3 and burned in the burner 5 of the combustion section 4.

At this time, the control unit 17 detects the temperature of the combustion unit 4 based on a signal from a combustion temperature detection thermistor (not shown), and determines whether or not the combustion unit 4 has reached the blast temperature ( Steps S7 and S8). Then, when the temperature of the combustion unit 4 has reached the blowing temperature, a drive signal is sent to the blower 7 to rotate the blower 7 (step S9). As a result, the heating air is taken into the main body 1, and the heating air taken into the main body 1 passes through the blower duct 22 and the combustion heat generated in the combustion section 4 and the outlet formed in the front surface of the main body 1. It is blown from outside by 8. At this time, the operation mode of the combustion unit 4 and the blower 7 is initially set to the strong combustion / strong air volume mode.

When the blower 7 starts rotating in this way, the control unit 17 executes room temperature control according to the flow chart shown in FIG. That is, the control unit 17 first detects the room temperature based on the signal from the room temperature detection thermistor 16 and determines whether the room temperature is equal to or lower than the set temperature −α (steps S10 and S11). Here, if the indoor temperature is lower than the set temperature −α, the process proceeds to step S12, and it is determined whether the current operation mode of the combustion unit 4 and the blower 7 is the strong combustion / strong air amount mode. When the operation mode is the strong combustion / strong air flow mode, the process proceeds to step S25 in FIG. 6 to detect the temperature inside the main body 1 based on the signal from the abnormal heating detection thermistor 23.

On the other hand, if the current operation mode is not the strong combustion / strong air volume mode in step S12, it is determined to be the medium combustion mode, and the process proceeds to steps S13 and S14. Then, after changing the inclination angle of the movable louver 11 from θ ₂ to θ ₁ , the operation mode of the combustion unit 4 and the blower 7 is changed and set from the medium combustion / medium air volume mode to the strong combustion / strong air volume mode.

If the room temperature is higher than the set temperature −α in step S11, the process proceeds to step S15, and it is determined whether the room temperature is equal to or lower than the set temperature. Here, if the indoor temperature is lower than the set temperature and higher than the set temperature −α, the process proceeds to step S16, and it is determined whether the current operation mode is the medium combustion / medium air flow mode. When the operation mode is the medium combustion / medium air volume mode, the process proceeds to step S25 described above, and the temperature inside the main body 1 is detected based on the signal from the thermistor 23 for detecting abnormal heating.

On the other hand, when the operation mode is not the medium combustion / medium air volume mode in step S16, the process proceeds to step S17, and it is determined whether or not the current operation mode is the strong combustion / strong air volume mode. Here, when the operation mode is the strong combustion / strong air volume mode, after changing the operation mode from the strong combustion / strong air volume mode to the medium combustion / medium air volume mode, the tilt angle of the movable louver 11 is changed from θ ₁ to θ. Change to ₂ (steps S18 and S19).

If the operation mode is not the strong combustion / strong air volume mode in step S17, it is determined to be the weak combustion / weak air volume mode, and the process proceeds to steps S20 and S21. Then, after changing the inclination angle of the movable louver 11 from θ ₃ to θ ₂ , the operation mode is changed and set from the weak combustion / weak air volume mode to the medium combustion / medium air volume mode.

When the indoor temperature is higher than the set temperature in step S15, the process proceeds to step S22, and it is determined whether the current operation mode is the weak combustion / weak air volume mode. Here, if the operation mode is the weak combustion / weak air flow mode, the process proceeds to step S25, and the temperature in the main body 1 is detected based on the signal from the abnormal heating detection thermistor 23.

On the other hand, when the operation mode is not the weak combustion / weak air volume mode, it is determined to be the medium combustion / medium air volume mode, and the process proceeds to steps S23 and S24. Then, after changing the inclination angle of the movable louver 11 from θ ₂ to θ ₃ , the operation mode is changed and set from the medium combustion / medium air volume mode to the weak combustion / weak air volume mode.

If the control unit 17 detects the temperature inside the main body 1 (inside the air duct 22) in step S25 described above, the process proceeds to step S26, and the temperature inside the main body 1 is compared with the set temperature. Here, if the temperature inside the main body 1 is lower than the set temperature, the process proceeds to step S32, and it is determined whether the combustion switch 24 is OFF.

On the other hand, when the temperature inside the main body 1 is higher than the set temperature, it is determined that abnormal heating has occurred. Then, in steps S27 and S28, the inclination angle of the movable louver 11 is changed to the most horizontal angle, that is, θ _1, and the alarm buzzer 28 is sounded.

At this time, the controller 17 detects the temperature inside the main body 1 again based on the signal from the thermistor 23 for detecting abnormal heating, and compares the temperature inside the main body 1 with the set temperature (steps S29, S30). .. If the temperature inside the main body 1 is higher than the set temperature, the process returns to step S27 and the above-described operation is repeated.

On the other hand, when the temperature inside the main body 1 is lower than the set temperature, the alarm buzzer 28 is turned off in step S31, and then the process proceeds to step S32. Then, it is determined whether or not the combustion switch 24 is OFF, and when the combustion switch 24 is ON, the process returns to step S10 and the room temperature control described above is repeatedly executed. If the combustion switch 24 is off, the process proceeds to steps S26 and S27 to stop the electromagnetic pump 3 and the blower 7.

As described above, in the present embodiment, the movable louver 11 is provided at the outlet 8 of the main body 1 so as to be swingable in the upward and downward directions, and the movable louver 11 is operated in the strong combustion mode in which the combustion unit 4 and the blower 7 are operated. By tilting downward as the high air volume mode switches to the medium combustion / medium air volume mode and the medium combustion / medium air volume mode to the weak combustion / weak air volume mode, the direction of the heated air blown from the outlet 8 is directed toward the floor surface. Can be directed. Therefore, even if the amount of air blown by the blower 7 is switched from relatively strong to weak, the heated air can be blown far along the floor surface, and the entire room can be effectively heated.

Further, in this embodiment, the temperature inside the main body 1 is detected based on the signal from the thermistor 23 for detecting abnormal heating, and when the temperature inside the main body 1 exceeds the set temperature, the inclination of the movable louver 11 is increased. Since the angle is the most horizontal, the heated air does not tend to stagnate in the main body 1 even if the outlet 8 is blocked with a towel or the like in the weak combustion / weak air volume mode. It is possible to prevent thermal damage to the equipment provided inside.

[0035]

[Effect of the device]

 As described above, according to the present invention, the movable louver is provided at the outlet of the main body so as to be swingable in the vertical direction, and the movable louver is inclined downward as the air flow of the blower becomes weaker. The heated air blown can be directed to the floor. As a result, the heated air does not rise as soon as it leaves the outlet, and the heated air can be blown far along the floor surface, effectively heating the entire room. it can.

Further, when the signal output from the abnormal heating detection means exceeds the set value, the inclination angle of the movable louver becomes the most horizontal angle, so that the outlet is toweled in the weak combustion / weak air volume mode. Even if the heating air is blocked by the above, the heated air does not stay in the main body, and thermal damage to the equipment provided in the main body can be prevented.

[Brief description of drawings]

FIG. 1 is a schematic vertical sectional view of an oil fan heater according to an embodiment of the present invention.

FIG. 2 is a vertical cross-sectional view near the heated air outlet of the fan heater.

FIG. 3 is a perspective view showing an example of a drive mechanism that swings and drives a movable louver in a vertical direction.

FIG. 4 is a block configuration diagram of a control unit that variably controls an inclination angle of a movable louver.

FIG. 5: O of a switch for detecting the tilt angle of the movable louver
The timing chart which shows N-OFF state.

FIG. 6 is a flowchart showing a control operation of a control unit.

FIG. 7 is a flowchart showing room temperature control of the control unit.

FIG. 8 is a schematic vertical sectional view of a conventional oil fan heater.

[Explanation of symbols]

1 ... Main body, 2 ... Vaporizer, 3 ... Electromagnetic pump, 4 ... Combustion section,
7 ... Blower, 8 ... Outlet, 11 ... Movable louver, 13 ...
Louver drive motor, 16 ... Control unit, 22 ... Air duct, 23 ... Abnormal heating detection thermistor.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Ichiro Tsukada 2570, Gosuda 1 Kaji, Kamo City, Niigata Prefecture Toshiba Heat Fixtures Co., Ltd. (72) Hideichi Miura 2570 1 Gosuda Goza, Kamo City, Niigata Prefecture 1 Toshiba Heat Fixers Within the corporation

Claims (1)

[Scope of utility model registration request] 1. A main body having an outlet on a front surface thereof, a combustion section provided in the main body for burning petroleum fuel to generate combustion heat, and the combustion heat generated in the combustion section is taken into the main body. A blower that blows air from the outlet together with the air, an indoor temperature detecting unit that detects an indoor temperature outside the main body, a movable louver that is provided at the outlet and is vertically swingable, and the indoor temperature detecting unit. When the detected indoor temperature is higher than the set temperature, the combustion power of the combustion unit and the blower amount of the blower are controlled to switch from relatively strong to weak and the movable louver is moved downward as the blower amount of the blower becomes weaker. It comprises a control means for inclining and an abnormal heating detection means for detecting abnormal heating in the main body, and the control means compares the signal from the abnormal heating detection means with a set value, and sets this setting. An oil fan heater, comprising means for controlling the tilt angle of the movable louver to a value that is the most horizontal when the value exceeds the value.